Planells, A., Cibrián, R., Cerdá, S., Segura, J., Daumal, F., & Giménez, A. Virtual acoustics in heritage buildings: Accuracy degree of acoustic parameters in the simulation of the Basilica "Santa María d Elx. 2017-January. Institute of Noise Control Engineering. Recuperado de https://www.scopus.com/inward/record.uri?eid=2-s2.0-85042159206&partnerID=40&md5=ba0d5deb6cf69eb700852592424eddc2
A. Planells R. Cibrián S. Cerdá J. Segura F. Daumal A. GiménezAcoustic noise Acoustic parameters Acoustic similarities Acoustic variables control Elastic waves heritage Simulation Simulation algorithms Simulation technique Virtual acoustics
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Alvarez-Morales, L., Zamarreno, T., Giron, S., & Galindo, M. (2014). A methodology for the study of the acoustic environment of Catholic cathedrals: Application to the Cathedral of Malaga. Building And Environment, 72, 102-115. https://doi.org/10.1016/j.buildenv.2013.10.015 (Original work published feb)
Lidia Alvarez-Morales Teofilo Zamarreno Sara Giron Miguel GalindoAcoustic environment Acoustic generators Acoustic parameters Andalucia Architectural acoustics Areas of influences Binaural impulse response Elastic waves Geometrical acoustics intangible heritage Malaga [Andalucia] Reverberation Room acoustics Spain Speech intelligibility Statistical distribution Worship space acoustics building computer simulation methodology three-dimensional modeling wave propagation
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